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ALF Goniometer Axes
George Ryall edited this page Mar 5, 2025
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The ALF Goniometer is a 6-axis goniometer. There is no specific logic required in controlling it, all that is required is the standard movement across the whole range with appropriate encoder/motor counts, and an ability to home all axes to a known position.
The numbering of the axes below corresponds to the number of the axes on the annotated diagram of the ALF goniometer.
Z-axis-
theta(a.k.a.Rrot) -
Cy(according togalil.inifor LabVIEW control) -
Cx(according togalil.inifor LabVIEW control) RlowerRupper
The table below defines how the goniometer axes are connected to motors, and the motor setup data needed:
| Axis Name | Rupper |
Rlower |
Cx |
Cy |
theta |
Z |
|---|---|---|---|---|---|---|
| Axis letter (crate) | F | E | D | C | B | A |
| Units | deg | deg | mm | mm | deg | mm |
| Acceleration | 4000 | 4000 | 4000 | 4000 | 8192 | 2048 |
| Deceleration | 4000 | 4000 | 4000 | 4000 | 8192 | 2048 |
| Speed | 700 | 2000 | 2000 | 2000 | 2048 | 4096 |
| LabVIEW Motor Steps per Unit | 1358 | 1719 | 640 | 640 | 756 | 641 |
| Motor Type | Reverse Active High |
Reverse Active High |
Reverse Active High |
Forward Active High |
Forward Active High |
Forward Active High |
| Encoder Present | Yes | Yes | Yes | Yes | Yes | Yes |
| LabVIEW Encoder Steps per Unit | 842 | 1074 | 400 | 400 | 472 | 400 |
| Encoder Type | Normal Quadrature | Normal Quadrature | Normal Quadrature | Reverse Quadrature | Normal Quadrature | Reverse Quadrature |
| Home Method | Forward Limit |
Forward Limit |
Forward Limit |
Forward Limit |
None Available |
Reverse Limit |
| Home Value | 25.4 | 27.6 | 55.6 | 57.922 | N/A | 0 |
| Max from Home | 25.4 | 27.6 | 55.6 | 57.5 | N/A | 200 |
| Min from Home | -25.4 | -27.6 | -55.6 | -57.5 | N/A | 0 |
| Max Travel | 40 | 80 | 100 | 100 | 360 | 200 |